Presnel lens angular segment manufacturing apparatus and method

ABSTRACT

A roller extruder for manufacturing Fresnel lens angular segments from raw plastic, the roller extruder having a blank roller and a die roller positioned a desired roller clearance from the blank roller, the die roller having two peripheral lens dies with an angular displacement between the lens dies increasing linearly from a die junction at the inside roller edge to approximately one hundred eighty degrees at the outside roller edge, and the die roller having peripheral Fresnel facet dies.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation-in-part application for U.S. patentapplication Ser. No. 11/644,233 which was filed on Dec. 22, 2006. Uponthe receipt and acceptance of the present application by the UnitedStates Patent and Trademark Office for prosecution, it is the intent ofthe Applicant to abandon the prior application and to prosecute only thepresent application.

BACKGROUND OF THE INVENTION

This invention is in the field of apparatuses and methods formanufacturing Fresnel lenses and in particular apparatuses and methodsfor extruding Fresnel lens angular segments from plastic.

Processes for extruding sheet plastic from raw plastic material such asingots and pellets and the like are well known in the industry.Similarly, processes for extruding Fresnel lenses from plastic throughthe use of heat and roller equipment for the extrusion process and diesfor impressing the facet grooves on the face of the lens are known inthe industry.

The use of Fresnel lenses for solar collectors is also known in theindustry. Economic, operational, and maintenance considerations dictatethat the use of a larger collector for solar collection applications isdesirable. When a Fresnel lens is to be used for a solar collector, thisusually dictates that the solar collector cannot be constructed of asingle lens. Also, in the manufacturing of the Fresnel lens, ordinarilya size limitation is dictated by the size of the rollers that are usedfor the production of the Fresnel lens. This then requires that a solarcollector be constructed from a composite of Fresnel lens components. Itis also found that the use of a generally circular shape for a Fresnellens is desirable for solar collector applications. Because of facetgroove orientation limitations and geometric sizing and shapelimitations, the manufacturing of Fresnel lens components for agenerally circular solar collector is problematic.

An object of the present invention is to provide an apparatus and amethod for manufacturing Fresnel lens components for a generallycircular solar collector that will provide for the matching of Fresnellens facet grooves of the components with the desired overall pattern ofthe solar collector and will provide for economy in manufacturing,including the use of common size rollers and other common extrusionequipment and the minimization of material waste. For purposes of thisapplication, the term “generally circular” shall be defined to includepolygon shapes such as an octagonal or hexagonal shape which have sideswhich are roughly equidistant from the geometric center of thecollector.

SUMMARY OF THE INVENTION

A preferred apparatus and method of the present invention utilizes a tworoller extruder that is equipped with a blank roller and a die roller.The die roller is equipped with one or more peripheral lens dies. Thelens dies provide, as the blank roller and the die roller rotate throughone complete revolution, for the extrusion of a pair of lenssubsegments, comprising a first or inner lens subsegment and a second orouter lens subsegment.

The die roller also has Fresnel facet dies for impressing Fresnel facetgrooves in the first lens subsegment and the second lens subsegment in apattern that provides for the Fresnel facet grooves to have a commoncenter of curvature when the first lens subsegments and the second lenssubsegments are positioned in a solar collector. The Fresnel facet diesalso provide for an appropriate progression of the Fresnel grooving withdistance from the common center of curvature so that solar energyincident to and passing the solar collector will be focused roughly to acommon focal point or common focal field.

A power shaft or other means known to persons skilled in the art can beused to provide power to the blank roller shaft and the die rollershaft, with the blank roller and the die roller having a power link andpreferably being driven at the same speed from the same power source.

A raw plastic sheet is fed to the rollers and successive pairs of thefirst lens subsegment and the second lens subsegment are discharged. Theraw plastic sheet can be supplied from a roll of blank plastic sheetingor can be supplied from a raw sheet extruder using raw plastic pellets,ingots or the like. Depending upon the plastic being used, the desiredthickness of the angular lens segments and other factors, thetemperature of the raw plastic sheet will likely need to be controlled.The inventor of the present invention prefers to deploy the method ofthe present invention downstream of a raw sheet extruder which willnormally discharge the raw sheet plastic in a pliable condition at anelevated temperature.

A continuous stream of successive pairs of angular lens segmentcomponents, namely a first lens subsegment and a second lens subsegment,each pair being fitted together to form an angular lens segment for asolar collector can be produced using the method of the presentinvention. The method of the present invention also provides foreliminating or minimizing the waste of raw plastic material.

Generally longitudinal lens dies on the die roller impress the left edgeand the right edge of each successive first lens subsegment and the leftedge and the right edge of each successive second lens subsegment, thefirst right edge of each first lens subsegment being impressed proximalto the second right edge of an adjacent second lens subsegment, and thefirst left edge of each first lens subsegment being impressed proximalto the second left edge of an adjacent second lens subsegment. Optionalend lens dies at the opposing die roller ends may also be used toimpress the inner edges and the outer edges of each successive firstlens subsegment and each successive second lens subsegment. Fresnelfacet dies on the die roller impress Fresnel facet grooves on eachsuccessive first lens subsegment and each successive second lenssubsegment. The Fresnel facet die pattern impresses a Fresnel facetgroove pattern with facet grooves for each angular lens segment having acommon center of curvature and progressive refraction, thus providingfor focus of incident solar radiation on a common focal point or commonfocal zone.

Depending upon the diameter of the die roller and the desired dimensionsof the angular lens segments, the orientation of the lens die may bechanged to be oriented generally circumferential rather than generallylongitudinal on the die roller, re-orienting the general layout of thefirst lens subsegment and the second lens subsegment on the die rollerby ninety degrees. For that embodiment, the first inner edge and thesecond outer edge is impressed by a longitudinal lens dye and isproximal to the first outer edge and the second inner edge.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front elevation view of a preferred embodiment of a rollerextruder of the present invention utilized for a preferred embodiment ofthe method of the present invention to manufacture Fresnel lens angularsegments.

FIG. 2 is a vertical side view cross-section of the roller extruder ofFIG. 1 utilized to manufacture Fresnel lens angular segments.

FIG. 3 is a plan view detail of two successive pairs of Fresnel lenssubsegments manufactured through use of a preferred embodiment of theroller extruder of FIG. 1 and a preferred embodiment of the method ofthe present intention.

FIG. 4 is a plan view of a hexagon shaped solar collector utilizingFresnel lens angular segments comprised of Fresnel lens subsegmentsmanufactured through use of the preferred embodiment of the rollerextruder of FIG. 1 and a preferred embodiment of the method of thepresent invention.

FIG. 5 is a front elevation view of an alternative preferred embodimentof a roller extruder of the present invention utilized for a alternativepreferred embodiment of the method of the present invention tomanufacture Fresnel lens angular segments.

FIG. 6 is a vertical side view cross-section of the alternative rollerextruder of FIG. 5 utilized to manufacture Fresnel lens angularsegments.

FIG. 7 is a plan view detail of two successive pairs of Fresnel lenssubsegments manufactured through use of an alternative preferredembodiment of the roller extruder of FIG. 5 and an alternative preferredembodiment of the method of the present intention.

FIG. 8 is a plan view of a hexagon shaped solar collector utilizingFresnel lens angular segments comprised of Fresnel lens subsegmentsmanufactured through use of the alternative preferred embodiment of theroller extruder of FIG. 5 and an alternative preferred embodiment of themethod of the present invention.

FIG. 9 is a cross-section detail of an alternative embodiment of aFresnel lens subsegment manufactured with matching Fresnel facet grooveson both the front subsegment surface and the rear subsegment surface.

FIG. 10 is a cross-section detail of an alternative embodiment of aFresnel lens subsegment manufactured with non-matching Fresnel facetgrooves on the front subsegment surface and the rear subsegment surface.

FIG. 11 is a cross-section detail of an alternative embodiment of a lensdie which is a lens groove.

FIG. 12 is a cross-section detail of an alternative embodiment of a lensdie which is a lens groove with an embodiment of a lens grooveprotrusion.

FIG. 13 is a cross-section detail of an alternative embodiment of a lensdie which is a lens groove with an alternative embodiment of a lensgroove protrusion.

FIG. 14 is a vertical side view cross-section of an alternative rollerextruder with vertical feed of raw plastic and vertical takeoff finishedlens output.

FIG. 15 is a vertical side view cross-section of an alternative rollerextruder with vertical feed of raw plastic and horizontal takeofffinished lens output.

FIG. 16 is a vertical side view cross-section of an alternative rollerextruder having three rollers with vertical feed of raw plastic andhorizontal takeoff finished lens output.

FIG. 17 is a front view perspective detail of an optional safety ringfor a roller of a roller extruder of the present invention.

FIG. 18 is a front elevation view of an alternative preferred embodimentof a roller extruder of the present invention having a first die rollerand a second die roller for impressing Fresnel facet grooves on bothsurfaces of the angular lens subsegments.

DETAILED DESCRIPTION

Referring first to FIG. 1, a preferred embodiment of the roller extruder1 of the present invention having a blank roller 3 and a die roller 5 isshown. The die roller, for the preferred embodiment shown is equippedwith two peripheral lens dies 7. Referring also to FIG. 2 and FIG. 3,the lens dies provide, as the blank roller and the die roller rotatethrough one complete revolution 9, for the extrusion of a lens wafer 105having a pair of lens subsegments 11, comprising a first or inner lenssubsegment 13 and a second or outer lens subsegment 15. The die rolleralso has Fresnel facet dies 75 for impressing, as the die roller isrotated through a complete rotation, Fresnel facet grooves 77 in thefirst lens subsegment and the second lens subsegment in a pattern thatprovide for the Fresnel facet grooves to have a common center ofcurvature 79 when the first lens subsegments and the second lenssubsegments are positioned in a solar collector 45 as shown in FIG. 4.The Fresnel facet dies also provide for an appropriate progression ofthe Fresnel grooving with distance from the common center of curvatureso that solar energy incident to and passing the solar collector will befocused roughly to a common focal point or common focal field.

Referring again to FIG. 1, the first lens die 113 and the second lensdie 115 are angularly separated by a primary angular displacement 111between the first lens die and the second lens die which increaseslinearly from the die junction 117, which is proximal to the firstroller inner edge 123, to the first die end 119 and the second die end121, which are proximal to the first roller outer edge 125. The firstlens die and the second lens die may be joined or proximally joined atthe die junction. The angular displacement between the first lens die atthe first die end and the second lens die at the second die end for thepreferred embodiment shown is approximately one hundred eighty degrees(180°). This is true whether the first lens die is generally horizontalas shown for the embodiment illustrated in FIG. 1 and FIG. 2 or thefirst lens die and the second lens die are both angularly displaced asshown for the alternative embodiment illustrated in FIG. 5 and FIG. 6.

Referring again to FIG. 1 and FIG. 2, a power shaft 83 can be used toprovide power to the blank roller shaft 55 and the die roller shaft 59,with the blank roller and the die roller having a power link 57 andpreferably being driven at the same speed from the same power source.Sprockets on the roller shaft and die roller shaft with chains or beltspositively linking the rollers provides for the roller speed of theblank roller and the die roller to be equal. Other roller drivemechanisms for driving the rollers will be known to persons skilled inthe art.

A pair of lower roller supports 63, 67 and a pair of upper rollersupports 61, 65 maintain a desired roller clearance 79 between the blankroller periphery 73 and the die roller periphery 71, which determinesthe Fresnel lens thickness 81 of the finished lens output 49 which willbe comprised of successive pairs of lens subsegments, a first lenssubsegment 13 and a second lens subsegment 15. Shaft bearings 107provide for the free rotation of the rollers on the support structure.The raw plastic sheet 47 is fed to the rollers upon a feed platform 51and successive pairs of the first lens subsegment and the second lenssubsegment as impressed in the lens wafer are discharged upon adischarge platform 53. Other roller support structures for supportingthe rollers and maintaining the desired roller clearance between theblank roller periphery and the die roller periphery will be known topersons skilled in the art.

The raw plastic sheet can be supplied from a roll of blank plasticsheeting or can be supplied from a raw sheet extruder using raw plasticpellets, ingots or the like. Depending upon the plastic being used, thedesired thickness of the angular lens segments and other factors, thetemperature of the raw plastic sheet will likely need to be controlled.The inventor of the present invention prefers to deploy the method ofthe present invention downstream of a raw sheet extruder which willnormally discharge the raw sheet plastic in a pliable condition at anelevated temperature. As noted above, the temperature of the raw sheetplastic that is optimum for the method of the present invention willdepend on the plastic being used, the thickness of the plastic and otherfactors that will be unique to each installation.

Referring again to FIG. 3, two successive pairs of angular lens segmentcomponents, namely a first lens subsegment 13 and a second lenssubsegment 15, each pair being fitted together to form an angular lenssegment 41 for a solar collector 45 as shown in FIG. 4 illustrate thecontinuous stream of angular lens segments that can be produced usingthe method of the present invention. The first lens subsegment has afirst inner edge 31 with a first inner generally circumferentialdimension 83, a first outer edge 27 with a first outer generallycircumferential dimension 85, a first left edge 37 with a first leftdimension 87 and a first right edge 39 with a first right dimension 89.The second lens subsegment has a second inner edge 25 with a secondinner generally circumferential dimension 91, a second outer edge 29with a second outer generally circumferential dimension 93, a secondleft edge 35 with a second left dimension 95, and a second right edge 33with a second right dimension 97, the first outer generallycircumferential dimension being roughly equal to the second innergenerally circumferential dimension providing for the second lenssubsegment to fit against the first lens subsegment with the secondinner edge fitting against the first outer edge for assembling anangular lens segment for a solar collector 45 as shown in FIG. 4, thefirst lens subsegment having a first radial dimension 99 from the firstinner edge to the first outer edge, the second lens subsegment having asecond radial dimension 101 from the second inner edge to the secondouter edge.

For the embodiment shown, the generally longitudinal lens dies 7 on thedie roller impress the left edge and the right edge of each successivefirst lens subsegment and the left edge and the right edge of eachsuccessive second lens subsegment, the first right edge of each firstlens subsegment being impressed proximal to the second right edge of anadjacent second lens subsegment, and the first left edge of each firstlens subsegment being impressed proximal to the second left edge of anadjacent second lens subsegment. Fresnel facet dies 75 on the die rollerimpress Fresnel facet grooves 77 on each successive first lenssubsegment and each successive second lens subsegment, the Fresnel facetdie pattern impresses a Fresnel facet groove pattern with facet groovesfor each angular lens segment having a common center of curvature andprogressive refraction, thus providing for focus of incident solarradiation on a common focal point or common focal zone.

Optional end lens dies 69 at the opposing die roller ends 103 may beused to impress the inner edges and the outer edges of each successivefirst lens subsegment and each successive second lens subsegment.However, the inventor prefers not to utilize end lens dies on the dieroller. This allows the inner edges and outer edges of the lens wafer toextend beyond the desired finish inner edges and outer edges of the lenssubsegments, thereby accommodating variations in the thickness of theraw plastic sheet, and allowing the lens subsegments to be trimmed,after extrusion, at the desired inner edges and desired outer edges.This reduces the probability of lens subsegments not fully extending tothe desired finish inner edge and the desired finish outer edge, whichrequires the rejection of the lens subsegments.

Depending upon the diameter of the die roller and the desired dimensionsof the angular lens segments, the orientation of the lens die whichimpresses the first left edge 37 and the second left edge 35 may bechanged to be oriented generally circumferential rather than generallylongitudinal on the die roller, re-orienting the general layout of thefirst lens subsegment and the second lens subsegment on the die rollerby ninety degrees. For that embodiment, the first inner edge 31 and thesecond outer edge 29 would be impressed by a longitudinal lens dye 7 andwould be proximal to the first outer edge 27 and the second inner edge25.

Referring now to FIG. 7, two successive pairs of Fresnel lenssubsegments manufactured through use of the alternative preferredembodiment of the roller extruder shown in FIG. 5 are shown. FIG. 8illustrates a plan view of a hexagonal shaped solar collector utilizingFresnel lens angular segments comprised of the Fresnel lens subsegmentsof FIG. 7 manufactured through use of the alternative preferredembodiment of the roller extruder of FIG. 5.

A further alternative embodiment of the two roller extruder of thepresent invention, that is used for an alternative embodiment of themethod of the present invention, consists of a first die roller 239 anda second die roller 241 as shown in FIG. 18, the first die roller beingsubstantially similar to the die roller described above and shown inFIGS. 1-2 and FIGS. 5-6, having at least two generally longitudinalperipheral lens dies and peripheral first Fresnel facet dies 243.However, for this alternative embodiment, the second die roller 241 alsohas peripheral second Fresnel facet dies 245. The second peripheralFresnel facet dies of the second die roller may match the first Fresnelfacet dies, with the pattern of the matching second Fresnel facet diesbeing a mirror image of the pattern of the first Fresnel facet dies,with the patterns of the Fresnel facet dies and the synchronization ofthe first die roller and the second die roller providing for matching offirst Fresnel facet grooves 127 on the front subsegment surface 129 andsecond Fresnel facet grooves 131 on the rear subsegment surface 133 ofeach lens subsegment 13,15 as shown in FIG. 9. Similarly thecross-sections and other dimensions of the first Fresnel facet dies andthe second Fresnel facet dies may be generally the same, providing forthe cross-section 135 of first Fresnel facet grooves and thecross-section 137 of the second Fresnel facet grooves to be the same, asshown in FIG. 9. The effect of impressing matching Fresnel facet grooveson both surfaces of the lens subsegments is that the focal length of thelens is approximately one-half of the focal length of a comparable lenswith Fresnel facet grooves impressed on one surface only.

However, the spacing and dimensions of the second Fresnel facet dies donot necessarily have to be the same as the first Fresnel facet dies. Itis merely essential that the second Fresnel facet dies impress Fresnelfacet grooves on the rear subsegment surface of each successive firstlens subsegment and each successive second lens subsegment, which willprovide a grove pattern for each angular lens segment having a commoncenter of curvature, which center of curvature is directly opposite thecenter of curvature on the opposing front surface of the angular lenssegment, and will provide for progressive refraction, thus providing forfocus of incident solar radiation on a common focal point or commonfocal zone. First Fresnel facet grooves 127 and second Fresnel facetgrooves 131 having a differing cross-section are illustrated in FIG. 10.

The embodiment of the die roller 5 shown in FIG. 1-2 and the embodimentshown in FIG. 5-6 are all illustrated with a first lens die 113 and asecond lens die 115 that have a triangular cross section and have a dieprotrusion 149 which protrudes from the die roller. However, the firstlens die and the second lens die may have a number of othercross-sections, some of the other preferred cross-sections beingillustrated in FIGS. 11-13.

FIG. 11 illustrates a lens die 7 that is a lens groove 151 with atrapezoidal cross-section. Groove embodiments of the lens die such asthis provide for thickening of the edges of the lens subsegments. Thetrapezoidal cross-section facilitates the separation of the lenssubsegments from the die roller. Referring to FIGS. 12-13, otheralternative cross-sections of a lens die 7 incorporating lens grooves151 are shown. The lens groove of FIG. 11 requires the subsequentdivision of the first lens subsegment from the second lens subsegment bycutting or otherwise dividing the first left edge 37 from the secondright edge 33 and the first right edge 39 from the second left edge 35.The lens dies of FIG. 12 and FIG. 13 on the other hand incorporate lensgrooves 151 and a lens groove protrusion 153 which provide for thedivision of the first lens subsegment from the second lens subsegment,while providing for thickened edges of the lens subsegments. Otherembodiments of the lens dies, whether or not incorporating dieprotrusions, lens grooves, lens groove protrusions, or othercross-sections, in view of the foregoing will be known to personsskilled in the art.

For embodiments incorporating end lens dies 69, the lens diecross-sections illustrated in FIGS. 2 and 5, and in FIGS. 11-13, as wellas other embodiments known to persons skilled in the art in view of theforegoing, may be used for the end lens dies as well.

Also, embodiments for the configuration of the peripheral lens diesvarying between the configuration shown in FIG. 1 and the configurationshown in FIG. 5, in view of the foregoing, will be known to personsskilled in the art.

Referring again to FIGS. 2 and 6, horizontal feed of the raw plastic 47is shown for the embodiments of FIGS. 2 and 6. However, referring toFIG. 14, vertical feed of the raw plastic 47 may be used for otherembodiments. Similarly, while horizontal takeoff of the finished lensoutput 49 may be used as shown for the embodiments of FIGS. 2 and 6, ifthe raw plastic is fed vertically to the extruder, vertical takeoff ofthe finished lens output from the pinch point 143 may be used as shownin FIG. 14, or horizontal takeoff of the finished lens output from thedie roller bottom 147 of the die roller 5, as shown in FIG. 15, or fromthe bottom of the blank roller.

Referring to FIG. 16, alternative embodiments of the roller extruder 1of the present invention may incorporate three rollers, a die roller 5,a blank roller 3, and a third roller 155. For the embodiment shown, thedie roller and the blank roller are as shown in FIG. 1 or FIG. 5. Thethird roller may be a blank roller or may be a die roller having secondFresnel facet dies, thereby providing for impressing second Fresnelfacet grooves 131 on the rear subsegment surface 133 of each lenssubsegment as shown in FIG. 9 and FIG. 10. If the third roller is to beused to impress second Fresnel facet grooves, it will ordinarily benecessary to provide heat to the third roller, as the lens subsegmentsare ordinarily allowed to cool on the first roller as the lenssubsegments progress from the first pinch point 143 between the firstroller and the second roller to the second pinch point 145 between thefirst roller and the third roller.

Referring to FIG. 17, the blank roller 3 or the die roller 5, for a tworoller alternative, or the blank roller, the die roller, or the thirdroller for a three roller alternative, may have a safety ring 139,preferably affixed to the roller near the inner edge or the outer edgeof the roller. Alternative embodiments may incorporate a pair of safetyrings, one safety ring preferably being affixed near the inner edge andthe other near the outer edge of one of the rollers. The safety ringmaintains a minimum roller clearance 141 between the rollers, therebypreventing damage from roller contact in the course of normal use.

Other embodiments and other variations and modifications of theembodiments described above will be obvious to a person skilled in theart. Therefore, the foregoing is intended to be merely illustrative ofthe invention and the invention is limited only by the following claimsand the doctrine of equivalents.

1. Roller extruder for manufacturing Fresnel lens angular lens segmentscomprising a pair of lens subsegments, a first or inner lens subsegmentand a second or outer lens subsegment, the first or inner lenssubsegment having a first outer edge and the second or outer lenssubsegment having a second inner edge, the roller extruder comprising:a) blank roller; b) die roller having a first roller inner edge and afirst roller outer edge, the die roller having two peripheral lens dies,the two peripheral lens dies comprising a first lens die and a secondlens die, the first lens die and the second lens die being proximallyjoined proximal to the first roller inner edge and which have a primaryangular displacement of approximately one hundred eighty degreesproximal to the first roller outer edge, and the die roller havingperipheral Fresnel facet dies, the peripheral lens dies providing, asthe blank roller and the die roller rotate through one completerevolution, for the extrusion of the first or inner lens subsegment andthe second or outer lens subsegment, and the Fresnel facet diesproviding, as the blank roller and the die roller rotate through onecomplete revolution, for the impression of curved Fresnel facet groovesin the first or inner lens subsegment and the second or outer lenssubsegment such that when the first or inner lens subsegment first outeredge is fitted to the second or outer lens subsegment second inner edgethe Fresnel facet grooves of the first or inner lens subsegment and thesecond or outer lens subsegment have a common center of curvature; c)roller support structure; and d) roller drive mechanism.
 2. Rollerextruder as recited in claim 1 wherein the die roller has an axis ofrotation and the first lens die is parallel to the axis of rotation. 3.Roller extruder as recited in claim 1 wherein the die roller has an axisof rotation and the second lens die is parallel to the axis of rotation.4. Roller extruder as recited in claim 1 further comprising a first endlens die extending circumferentially around the die roller proximal tothe first roller inner edge and a second end lens die extendingcircumferentially around the die roller proximal to the first rollerouter edge.
 5. Roller extruder as recited in claim 1 further comprisinga safety ring affixed circumferentially to the die roller or the blankroller.
 6. Roller extruder as recited in claim 1 further comprising athird roller.
 7. Roller extruder for manufacturing Fresnel lens angularlens segments comprising a pair of lens subsegments, a first or innerlens subsegment and a second or outer lens subsegment, the first orinner lens subsegment having a first outer edge and the second or outerlens subsegment having a second inner edge, the roller extrudercomprising: a) blank roller; b) die roller having a first roller inneredge and a first roller outer edge, the die roller having two peripherallens dies, the two peripheral lens dies comprising a first lens diehaving a first die end and a second lens die having a second die end,and the die roller having peripheral Fresnel facet dies, the first lensdie and the second lens die being proximally joined at a die junctionwhich is proximal to the first roller inner edge, and the first lens dieand the second lens die being angularly separated by a primary angulardisplacement which increases approximately linearly with longitudinaldistance from the die junction to the first die end and the second dieend, the first die end and the second die end being proximal to thefirst roller outer edge, and the primary angular displacement betweenthe first die end and the second die end being approximately one hundredeighty degrees, the peripheral lens dies providing, as the blank rollerand the die roller rotate through one complete revolution, for theextrusion of the first or inner lens subsegment and the second or outerlens subsegment, and the Fresnel facet dies providing, as the blankroller and the die roller rotate through one complete revolution, forthe impression of curved Fresnel facet grooves in the first or innerlens subsegment and the second or outer lens subsegment such that whenthe first or inner lens subsegment first outer edge is fitted to thesecond or outer lens subsegment second inner edge the Fresnel facetgrooves of both surfaces of the first or inner lens subsegment and thesecond or outer lens subsegment have a common center of curvature; c)roller support structure; and d) roller drive mechanism.
 8. Rollerextruder as recited in claim 7 wherein the die roller has an axis ofrotation and the first lens die is parallel to the axis of rotation. 9.Roller extruder as recited in claim 7 wherein the die roller has an axisof rotation and the second lens die is parallel to the axis of rotation.10. Roller extruder as recited in claim 7 further comprising a first endlens die extending circumferentially around the die roller proximal tothe first roller inner edge and a second end lens die extendingcircumferentially around the die roller proximal to the first rollerouter edge.
 11. Roller extruder as recited in claim 7 further comprisinga safety ring affixed circumferentially to the die roller or the blankroller.
 12. Roller extruder as recited in claim 7 further comprising athird roller.
 13. Roller extruder for manufacturing Fresnel lens angularlens segments comprising a pair of lens subsegments, a first or innerlens subsegment and a second or outer lens subsegment, the first orinner lens subsegment having a first outer edge and the second or outerlens subsegment having a second inner edge, each lens subsegment havinga front subsegment surface and a rear subsegment surface, the rollerextruder comprising: a) second die roller having peripheral secondFresnel facet dies; b) first die roller having a first roller inner edgeand a first roller outer edge, having two peripheral lens dies which areproximally joined proximal to the first roller inner edge and have aprimary angular displacement of approximately one hundred eighty degreesproximal to the first roller outer edge, and the first die roller havingperipheral first Fresnel facet dies, the peripheral lens dies providing,as the first die roller and the second die roller rotate through onecomplete revolution, for the extrusion of the first or inner lenssubsegment and the second or outer lens subsegment, and the firstFresnel facet dies and the second Fresnel facet dies respectivelyproviding, as the first die roller and the second die roller rotatethrough one complete revolution, for the impression of curved Fresnelfacet grooves in the surfaces of the first or inner lens subsegment andthe second or outer lens subsegment such that when the first or innerlens subsegment first outer edge is fitted to the second or outer lenssubsegment second inner edge the Fresnel facet grooves of both surfacesof the first or inner lens subsegment and the second or outer lenssubsegment have a common center of curvature; c) roller supportstructure; and d) roller drive mechanism.
 14. Roller extruder as recitedin claim 13 wherein the first die roller has an axis of rotation and thefirst lens die is parallel to the axis of rotation.
 15. Roller extruderas recited in claim 13 wherein the first die roller has an axis ofrotation and the second lens die is parallel to the axis of rotation.16. Roller extruder as recited in claim 13 wherein the first Fresnelfacet dies are matched by position and curvature with the second Fresnelfacet dies and by synchronization of first die roller rotation withsecond die roller rotation provided by the roller drive mechanism,providing for the matching of the center of curvature of the firstFresnel facet grooves and the second Fresnel facet grooves such thatwhen the first or inner lens subsegment first outer edge is fitted tothe second or outer lens subsegment second inner edge the Fresnel facetgrooves of both surfaces of the first or inner lens subsegment and thesecond or outer lens subsegment have a common center of curvature. 17.Roller extruder as recited in claim 13 further comprising a first endlens die extending circumferentially around the first die rollerproximal to the first roller inner edge and a second end lens dieextending circumferentially around the first die roller proximal to thefirst roller outer edge.
 18. Roller extruder as recited in claim 13further comprising a safety ring affixed circumferentially to the firstdie roller or the second die roller.
 19. Roller extruder as recited inclaim 13 further comprising a third roller.
 20. Roller extruder formanufacturing Fresnel lens angular lens segments comprising a pair oflens subsegments, a first or inner lens subsegment and a second or outerlens subsegment, the first or inner lens subsegment having a first outeredge and the second or outer lens subsegment having a second inner edge,each lens subsegment having a front subsegment surface and a rearsubsegment surface, the roller extruder comprising: a) second die rollerhaving peripheral second Fresnel facet dies; b) first die roller havinga first roller inner edge and a first roller outer edge, having twoperipheral lens dies, a first lens die having a first die end and asecond lens die having a second die end, and the first die roller havingperipheral first Fresnel facet dies, the first lens die and the secondlens die being proximally joined at a die junction which is proximal tothe first roller inner edge, and the first lens die and the second lensdie being angularly separated by a primary angular displacement whichincreases approximately linearly with longitudinal distance from the diejunction to the first die end and the second die end, the first die endand the second die end being proximal to the first roller outer edge,and the primary angular displacement between the first die end and thesecond die end being approximately one hundred eighty degrees, theperipheral lens dies providing, as the first die roller and the seconddie roller rotate through one complete revolution, for the extrusion ofthe first or inner lens subsegment and the second or outer lenssubsegment, and the first Fresnel facet dies and the second Fresnelfacet dies respectively providing, as the first die roller and thesecond die roller rotate through one complete revolution, for theimpression of curved Fresnel facet grooves in the surfaces of the firstor inner lens subsegment and the second or outer lens subsegment suchthat when the first or inner lens subsegment first outer edge is fittedto the second or outer lens subsegment second inner edge the Fresnelfacet grooves of both surfaces of the first or inner lens subsegment andthe second or outer lens subsegment have a common center of curvature;c) roller support structure; and d) roller drive mechanism.
 21. Rollerextruder as recited in claim 20 wherein the first die roller has an axisof rotation and the first lens die is parallel to the axis of rotation.22. Roller extruder as recited in claim 20 wherein the first die rollerhas an axis of rotation and the second lens die is parallel to the axisof rotation.
 23. Roller extruder as recited in claim 20 wherein thefirst Fresnel facet dies are matched by position and curvature with thesecond Fresnel facet dies and by synchronization of first die rollerrotation with second die roller rotation provided by the roller drivemechanism, providing for the matching of the center of curvature of thefirst Fresnel facet grooves and the second Fresnel facet grooves suchthat when the first or inner lens subsegment first outer edge is fittedto the second or outer lens subsegment second inner edge the Fresnelfacet grooves of both surfaces of the first or inner lens subsegment andthe second or outer lens subsegment have a common center of curvature.24. Roller extruder as recited in claim 20 further comprising a firstend lens die extending circumferentially around the first die rollerproximal to the first roller inner edge and a second end lens dieextending circumferentially around the first die roller proximal to thefirst roller outer edge.
 25. Roller extruder as recited in claim 20further comprising a safety ring affixed circumferentially to the firstdie roller or the second die roller.
 26. Roller extruder as recited inclaim 20 further comprising a third roller.
 27. Roller extruder formanufacturing Fresnel lens angular lens segments comprising a pair oflens subsegments, a first or inner lens subsegment and a second or outerlens subsegment, the first or inner lens subsegment having a first outeredge and the second or outer lens subsegment having a second inner edge,the roller extruder comprising: a) blank roller; b) die roller having afirst roller inner edge and a first roller outer edge, having one ormore pairs of peripheral lens dies, each pair of peripheral lens diescomprising a first lens die and a second lens die, the first lens dieand the second lens die being proximally joined proximal to the firstroller inner edge, each pair being spaced equidistant around theperiphery of the die roller, and each pair having a primary angulardisplacement approximately equal to three hundred sixty degrees dividedby the total number of lens dies, and the die roller having peripheralFresnel facet dies, the peripheral lens dies providing, as the blankroller and the die roller rotate through one complete revolution, forthe extrusion of the first or inner lens subsegment and the second orouter lens subsegment, and the Fresnel facet dies providing, as theblank roller and the die roller rotate through one complete revolution,for the impression of curved Fresnel facet grooves in the first or innerlens subsegment and the second or outer lens subsegment such that whenthe first or inner lens subsegment first outer edge is fitted to thesecond or outer lens subsegment second inner edge the Fresnel facetgrooves of the first or inner lens subsegment and the second or outerlens subsegment have a common center of curvature; c) roller supportstructure; and d) roller drive mechanism.
 28. Roller extruder as recitedin claim 27 further comprising a third roller.
 29. Roller extruder formanufacturing Fresnel lens angular lens segments comprising a pair oflens subsegments, a first or inner lens subsegment and a second or outerlens subsegment, the first or inner lens subsegment having a first outeredge and the second or outer lens subsegment having a second inner edge,each lens subsegment having a front subsegment surface and a rearsubsegment surface, the roller extruder comprising: a) second die rollerhaving peripheral second Fresnel facet dies; b) first die roller havinga first roller inner edge and a first roller outer edge, having one ormore pairs of peripheral lens dies, each pair comprising a first lensdie and a second lens die which are proximally joined proximal to thefirst roller inner edge, each pair being spaced equidistant around theperiphery of the die roller, and each pair having a primary angulardisplacement approximately equal to three hundred sixty degrees dividedby the total number of lens dies, and the first die roller havingperipheral first Fresnel facet dies, the peripheral lens dies providing,as the first die roller and the second die roller rotate through onecomplete revolution, for the extrusion of the first or inner lenssubsegment and the second or outer lens subsegment, and the firstFresnel facet dies and the second Fresnel facet dies respectivelyproviding, as the first die roller and the second die roller rotatethrough one complete revolution, for the impression of curved Fresnelfacet grooves in the surfaces of the first or inner lens subsegment andthe second or outer lens subsegment such that when the first or innerlens subsegment first outer edge is fitted to the second or outer lenssubsegment second inner edge the Fresnel facet grooves of both surfacesof the first or inner lens subsegment and the second or outer lenssubsegment have a common center of curvature; c) roller supportstructure; and d) roller drive mechanism.
 30. Roller extruder as recitedin claim 29 further comprising a third roller.
 31. Method formanufacturing Fresnel lens angular lens segments comprising a pair oflens subsegments, a first or inner lens subsegment and a second or outerlens subsegment, the first or inner lens subsegment having a first outeredge and the second or outer lens subsegment having a second inner edge,the method comprising: a) feeding raw plastic sheet to a roller extruderhaving a blank roller and a die roller, the die roller having a firstroller inner edge and a first roller outer edge and having twoperipheral lens dies, the two peripheral lens dies comprising a firstlens die and a second lens die, the first lens die and the second lensdie being proximally joined proximal to the first roller inner edge andhave a primary angular displacement of approximately one hundred eightydegrees proximal to the first roller outer edge, and the die rollerhaving peripheral Fresnel facet dies; and b) extruding, for a revolutionof the die roller, the angular lens segment, the angular lens segmentcomprising a first or inner lens subsegment and a second or outer lenssubsegment, the first or inner lens subsegment and the second or outerlens subsegment respectively being impressed between the first lens dieand the second lens die, the first or inner lens subsegment having itsminimum circumferential dimension proximal to the die junction and itmaximum circumferential dimension proximal to the first roller outeredge where the primary angular displacement is approximately one hundredeighty degrees, and the second or outer lens subsegment having itsminimum circumferential dimension proximal to the first roller outeredge where the first lens die and the second lens die have a reverseangular displacement of approximately one hundred eighty degrees and itsmaximum circumferential dimension proximal to the first roller inneredge wherein the first lens die and the second lens die have a maximumreverse angular displacement, and the Fresnel facet dies impressingcurved Fresnel facet grooves on the first or inner lens subsegment andthe second or outer lens subsegment such that when the first or innerlens subsegment first outer edge is fitted to the second or outer lenssubsegment second inner edge the Fresnel facet grooves of the first orinner lens subsegment and the second or outer lens subsegment have acommon center of curvature.
 32. Method for manufacturing Fresnel lensangular lens segments comprising a pair of lens subsegments, a first orinner lens subsegment and a second or outer lens subsegment, the firstor inner lens subsegment having a first outer edge and the second orouter lens subsegment having a second inner edge, the method comprising:a) feeding raw plastic sheet to a roller extruder having a blank rollerand a die roller, the die roller having a first roller inner edge and afirst roller outer edge, having two peripheral lens dies, the twoperipheral lens dies comprising a first lens die having a first die endand a second lens die having a second die end, and the die roller havingperipheral Fresnel facet dies, the first lens die and the second lensdie being proximally joined at a die junction which is proximal to thefirst roller inner edge, and the first lens die and the second lens diebeing angularly separated by a primary angular displacement whichincreases approximately linearly with longitudinal distance from the diejunction to the first die end and the second die end, the first die endand the second die end being proximal to the first roller outer edge,and the primary angular displacement between the first die end and thesecond die end being approximately one hundred eighty degrees; and b)extruding, for a revolution of the die roller, the angular lens segment,the angular lens segment comprising a first or inner lens subsegment anda second or outer lens subsegment, the first or inner lens subsegmentand the second or outer lens subsegment respectively being impressedbetween the first lens die and the second lens die, the first or innerlens subsegment having its minimum circumferential dimension proximal tothe die junction and it maximum circumferential dimension proximal tothe first roller outer edge where the primary angular displacement isapproximately one hundred eighty degrees, and the second or outer lenssubsegment having its minimum circumferential dimension proximal to thefirst roller outer edge where the first lens die and the second lens diehave a reverse angular displacement of approximately one hundred eightydegrees and its maximum circumferential dimension proximal to the firstroller inner edge wherein the first lens die and the second lens diehave a maximum reverse angular displacement, and the Fresnel facet diesimpressing curved Fresnel facet grooves on the first or inner lenssubsegment and the second or outer lens subsegment such that when thefirst or inner lens subsegment first outer edge is fitted to the secondor outer lens subsegment second inner edge the Fresnel facet grooves ofthe first or inner lens subsegment and the second or outer lenssubsegment have a common center of curvature.
 33. Method formanufacturing Fresnel lens angular lens segments comprising a pair oflens subsegments, a first or inner lens subsegment and a second or outerlens subsegment, the first or inner lens subsegment having a first outeredge and the second or outer lens subsegment having a second inner edge,each lens subsegment having a front subsegment surface and a rearsubsegment surface, the method comprising: a) feeding raw plastic sheetto a roller extruder having a first die roller and a second die roller,the first die roller having a first roller inner edge and a first rollerouter edge, having two peripheral lens dies, a first lens die and asecond lens die, which are proximally joined at a die junction proximalto the first roller inner edge and have a primary angular displacementof approximately one hundred eighty degrees proximal to the first rollerouter edge, and the first die roller having peripheral first Fresnelfacet dies, and the second die roller having peripheral second Fresnelfacet dies; and b) extruding, for a revolution of the first die rollerand the second die roller, the angular lens segment, the angular lenssegment comprising a first or inner lens subsegment and a second orouter lens subsegment, the first or inner lens subsegment and the secondor outer lens subsegment respectively being impressed between the firstlens die and the second lens die, the first or inner lens subsegmenthaving its minimum circumferential dimension proximal to the diejunction and it maximum circumferential dimension proximal to the firstroller outer edge where the primary angular displacement isapproximately one hundred eighty degrees, and the second or outer lenssubsegment having its minimum circumferential dimension proximal to thefirst roller outer edge where the first lens die and the second lens diehave a reverse angular displacement of approximately one hundred eightydegrees and its maximum circumferential dimension proximal to the firstroller inner edge wherein the first lens die and the second lens diehave a maximum reverse angular displacement, and the first Fresnel facetdies impressing curved first Fresnel facet grooves on the outer segmentsurface of the first or inner lens subsegment and the second or outerlens subsegment of the angular lens segment, and the second Fresnelfacet dies impressing curved second Fresnel facet grooves on an innersegment surface of the first or inner lens subsegment and the second orouter lens subsegment such that when the first or inner lens subsegmentfirst outer edge is fitted to the second or outer lens subsegment secondinner edge the Fresnel facet grooves of both surfaces of the first orinner lens subsegment and the second or outer lens subsegment have acommon center of curvature.
 34. Method for manufacturing Fresnel lensangular lens segments comprising a pair of lens subsegments, a first orinner lens subsegment and a second or outer lens subsegment, the firstor inner lens subsegment having a first outer edge and the second orouter lens subsegment having a second inner edge, each lens subsegmenthaving a front subsegment surface and a rear subsegment surface, themethod comprising: a) feeding raw plastic sheet to a roller extruderhaving a first die roller and a second die roller, the first die rollerhaving a first roller inner edge and a first roller outer edge, havingtwo peripheral lens dies, a first lens die having a first die end and asecond lens die having a second die end, and the first die roller havingperipheral first Fresnel facet dies, the first lens die and the secondlens die being proximally joined at a die junction which is proximal tothe first roller inner edge, and the first lens die and the second lensdie being angularly separated by a primary angular displacement whichincreases approximately linearly with longitudinal distance from the diejunction to the first die end and the second die end, the first die endand the second die end being proximal to the first roller outer edge,and the primary angular displacement between the first die end and thesecond die end being approximately one hundred eighty degrees, andhaving peripheral first Fresnel facet dies, and the second die rollerhaving peripheral second Fresnel facet dies; and b) extruding, for arevolution of the die roller, the angular lens segment, the angular lenssegment comprising a first or inner lens subsegment and a second orouter lens subsegment, the first or inner lens subsegment and the secondor outer lens subsegment respectively being impressed between the firstlens die and the second lens die, the first or inner lens subsegmenthaving its minimum circumferential dimension proximal to the diejunction and it maximum circumferential dimension proximal to the firstroller outer edge where the primary angular displacement isapproximately one hundred eighty degrees, and the second or outer lenssubsegment having its minimum circumferential dimension proximal to thefirst roller outer edge where the first lens die and the second lens diehave a reverse angular displacement of approximately one hundred eightydegrees and its maximum circumferential dimension proximal to the firstroller inner edge wherein the first lens die and the second lens diehave a maximum reverse angular displacement, and the first Fresnel facetdies impressing curved first Fresnel facet grooves on the outer segmentsurface of the first or inner lens subsegment and the second or outerlens subsegment of the angular lens segment, and the second Fresnelfacet dies impressing curved second Fresnel facet grooves on an innersegment surface of the first or inner lens subsegment and the second orouter lens subsegment such that when the first or inner lens subsegmentfirst outer edge is fitted to the second or outer lens subsegment secondinner edge the Fresnel facet grooves of both surfaces of the first orinner lens subsegment and the second or outer lens subsegment have acommon center of curvature.
 35. Method for manufacturing Fresnel lensangular segments comprising a pair of lens subsegments, a first or innerlens subsegment and a second or outer lens subsegment, the first orinner lens subsegment having a first outer edge and the second or outerlens subsegment having a second inner edge, the method comprising: a)feeding raw plastic sheet to a roller extruder having a blank roller anda die roller, the die roller having two peripheral lens dies, the twoperipheral lens dies comprising a first lens die and a second lens die,the first lens die and the second lens die being proximally joinedproximal to the first roller inner edge and have a primary angulardisplacement of approximately one hundred eighty degrees proximal to thefirst roller outer edge, and the die roller having peripheral Fresnelfacet dies; b) forming and extruding, for each successive revolution ofthe die roller, an extruded lens wafer from the raw plastic sheet, andimpressing in the lens wafer by the lens dies for each revolution of thedie rollers, an angular lens segment from the lens wafer, the angularlens segment comprising a first or inner lens subsegment and a second orouter lens subsegment, the lens dies impressing the first or inner lenssubsegment and the second or outer lens subsegment as the die rollermakes the complete revolution, the first or inner lens subsegment andthe second or outer lens subsegment being impressed in an invertedposition with respect to each other in the lens wafer, the Fresnel facetdies impressing curved Fresnel facet grooves in the first or inner lenssubsegment and the second or outer lens subsegment such that when thefirst or inner lens subsegment first outer edge is fitted to the secondor outer lens subsegment second inner edge the Fresnel facet grooves ofthe first or inner lens subsegment and the second or outer lenssubsegment have a common center of curvature.
 36. Method formanufacturing Fresnel lens angular segments comprising a pair of lenssubsegments, a first or inner lens subsegment and a second or outer lenssubsegment, the first or inner lens subsegment having a first outer edgeand the second or outer lens subsegment having a second inner edge, eachlens subsegment having a front subsegment surface and a rear subsegmentsurface, the method comprising: a) feeding raw plastic sheet to a rollerextruder having a first die roller and a second die roller, the firstdie roller having two peripheral lens dies which are proximally joinedat a die junction proximal to the first roller inner edge and have aprimary angular displacement of approximately one hundred eighty degreesproximal to the first roller outer edge, and the first die roller havingperipheral first Fresnel facet dies, and the second die roller havingperipheral second Fresnel facet dies; and b) forming and extruding, foreach successive revolution of the die rollers, an extruded lens waferfrom the raw plastic sheet, and impressing in the lens wafer by the lensdies for each revolution of the die rollers, an angular lens segmentfrom the lens wafer, the angular lens segment comprising a first orinner lens subsegment and a second or outer lens subsegment, the lensdies impressing the first or inner lens subsegment and the second orouter lens subsegment as the die roller makes the complete revolution,the first or inner lens subsegment and the second or outer lenssubsegment being impressed in an inverted position with respect to eachother in the lens wafer, the first Fresnel facet dies and the secondFresnel facet dies impressing curved Fresnel facet grooves on opposingsurfaces of the first or inner lens subsegment and the second or outerlens subsegment such that when the first or inner lens subsegment firstouter edge is fitted to the second or outer lens subsegment second inneredge the Fresnel facet grooves of the first or inner lens subsegment andthe second or outer lens subsegment have a common center of curvature.37. Method for manufacturing a Fresnel lens angular lens segmentcomprising: a) feeding raw plastic sheet to a roller extruder having ablank roller and a die roller, the die roller having a pair of generallylongitudinal peripheral lens dies; and peripheral Fresnel facet dies;and b) extruding, for a revolution of the die roller, the angular lenssegment, the angular lens segment comprising a first or inner lenssubsegment and a second or outer lens subsegment, the first or innerlens subsegment having a first inner edge with a first inner generallycircumferential dimension, a first outer edge with a first outergenerally circumferential dimension, a first left edge with a first leftdimension and a first right edge with a first right dimension, thesecond or outer lens subsegment having a second inner edge with a secondinner generally circumferential dimension, a second outer edge with asecond outer generally circumferential dimension, a second left edgewith a second left dimension, and a second right edge with a secondright dimension, the first outer generally circumferential dimensionbeing roughly equal to the second inner generally circumferentialdimension providing for the second or outer lens subsegment to fitagainst the first or inner lens subsegment with the second inner edgefitting against the first outer edge for assembly of an angular lenssegment, the generally longitudinal peripheral lens dies impressing thefirst left edge, the first right edge, the second left edge and thesecond right edge, the end lens dies impressing the first inner edge,the first outer edge, the second inner edge and the second outer edge,and the Fresnel facet dies impressing curved Fresnel facet grooves onthe first or inner lens subsegment and the second or outer lenssubsegment such that when the first or inner lens subsegment first outeredge is fitted to the second or outer lens subsegment second inner edgethe Fresnel facet grooves of the first or inner lens subsegment and thesecond or outer lens subsegment have a common center of curvature. 38.Method for manufacturing Fresnel lens angular segments comprising: a)feeding raw plastic sheet to a roller extruder having a blank roller anda die roller, the die roller having a generally circumferential lensdie, a longitudinal peripheral lens die, and peripheral Fresnel facetdies; and b) extruding, for a revolution of the die roller, the angularlens segment, the angular lens segment comprising a first or inner lenssubsegment and a second or outer lens subsegment, the first or innerlens subsegment having a first inner edge with a first inner generallycircumferential dimension, a first outer edge with a first outergenerally circumferential dimension, a first left edge with a first leftdimension and a first right edge with a first right dimension, thesecond or outer lens subsegment having a second inner edge with a secondinner generally circumferential dimension, a second outer edge with asecond outer generally circumferential dimension, a second left edgewith a second left dimension, and a second right edge with a secondright dimension, the first outer generally circumferential dimensionbeing roughly equal to the second inner generally circumferentialdimension providing for the second or outer lens subsegment to fitagainst the first or inner lens subsegment with the second inner edgefitting against the first outer edge for assembly of an angular lenssegment, the generally circumferential peripheral lens dies impressingthe first left edge and the second left edge, the longitudinal lens dieimpressing the first inner edge, the first outer edge, the second inneredge and the second outer edge, and the Fresnel facet dies impressingcurved Fresnel facet grooves on the first or inner lens subsegment andthe second or outer lens subsegment such that when the first or innerlens subsegment first outer edge is fitted to the second or outer lenssubsegment second inner edge the Fresnel facet grooves of the first orinner lens subsegment and the second or outer lens subsegment have acommon center of curvature.
 39. Method for manufacturing Fresnel lensangular lens segments comprising: a) feeding raw plastic sheet to aroller extruder having a first die roller and a second die roller, thefirst die roller having a pair of generally longitudinal peripheral lensdies, and peripheral first Fresnel facet dies, and the second die rollerhaving peripheral second Fresnel facet dies; and b) extruding, for arevolution of the die rollers, the angular lens segment, the angularlens segment comprising a first or inner lens subsegment and a second orouter lens subsegment, the first or inner lens subsegment having a firstinner edge with a first inner generally circumferential dimension, afirst outer edge with a first outer generally circumferential dimension,a first left edge with a first left dimension and a first right edgewith a first right dimension, the second or outer lens subsegment havinga second inner edge with a second inner generally circumferentialdimension, a second outer edge with a second outer generallycircumferential dimension, a second left edge with a second leftdimension, and a second right edge with a second right dimension, thefirst outer generally circumferential dimension being roughly equal tothe second inner generally circumferential dimension providing for thesecond or outer lens subsegment to fit against the first or inner lenssubsegment with the second inner edge fitting against the first outeredge for assembly of an angular lens segment, the generally longitudinalperipheral lens dies impressing the first left edge, the first rightedge, the second left edge and the second right edge, the end lens diesimpressing the first inner edge, the first outer edge, the second inneredge and the second outer edge, and the first Fresnel facet diesimpressing curved first Fresnel facet grooves on a front surface of thefirst or inner lens subsegment and the second or outer lens subsegmentand the second Fresnel facet dies impressing curved second Fresnel facetgrooves on a rear surface of the first or inner lens subsegment and thesecond or outer lens subsegment, such that when the first or inner lenssubsegment first outer edge is fitted to the second or outer lenssubsegment second inner edge the Fresnel facet grooves of the first orinner lens subsegment and the second or outer lens subsegment have acommon center of curvature.
 40. Method for manufacturing Fresnel lensangular segments comprising: a) feeding raw plastic sheet to a rollerextruder having a first die roller and a second die roller, the firstdie roller having a generally circumferential lens die, a longitudinalperipheral lens die, and peripheral first Fresnel facet dies, and thesecond die roller having peripheral second Fresnel facet dies; and b)extruding, for a revolution of the die roller, the angular lens segment,the angular lens segment comprising a first or inner lens subsegment anda second or outer lens subsegment, the first or inner lens subsegmenthaving a first inner edge with a first inner generally circumferentialdimension, a first outer edge with a first outer generallycircumferential dimension, a first left edge with a first left dimensionand a first right edge with a first right dimension, the second or outerlens subsegment having a second inner edge with a second inner generallycircumferential dimension, a second outer edge with a second outergenerally circumferential dimension, a second left edge with a secondleft dimension, and a second right edge with a second right dimension,the first outer generally circumferential dimension being roughly equalto the second inner generally circumferential dimension providing forthe second or outer lens subsegment to fit against the first or innerlens subsegment with the second inner edge fitting against the firstouter edge for assembly of an angular lens segment, the generallycircumferential peripheral lens dies impressing the first left edge andthe second left edge, the longitudinal lens die impressing the firstinner edge, the first outer edge, the second inner edge and the secondouter edge, and the first Fresnel facet dies impressing curved firstFresnel facet grooves on a front surface of the first or inner lenssubsegment and the second or outer lens subsegment and the secondFresnel facet dies impressing curved second Fresnel facet grooves on arear surface of the first or inner lens subsegment and the second orouter lens subsegment, such that when the first or inner lens subsegmentfirst outer edge is fitted to the second or outer lens subsegment secondinner edge the Fresnel facet grooves of the first or inner lenssubsegment and the second or outer lens subsegment have a common centerof curvature.